KR20150073017A - Apparatus for measuring temperature - Google Patents

Abstract

The present invention relates to a temperature measuring apparatus. The temperature measuring apparatus comprises: an apparatus frame; a non-contact type temperature measuring means which is installed on one side of the apparatus frame and measures the temperature of an object disposed on the other side of the apparatus frame; and a foreign substance removing means which is installed on the other side of the apparatus frame to be disposed between the non-contact type temperature measuring means and the object and removes foreign substances from the non-contact type temperature measuring means to the object by spraying the air. The temperature measuring apparatus includes the non-contact type temperature measuring means to measure a temperature in a non-contact type with respect to the surface of a main piece at the time of measuring the temperature of the main piece, thereby preventing irregularity in temperature of the main piece in a width direction. Moreover, the temperature measuring apparatus includes the foreign substance removing means for removing foreign substances from the non-contact type temperature measuring means to the main piece by spraying the air, thereby securing a field of vision appropriate for a measurement path of the non-contact type temperature measuring means. Furthermore, the air is sprayed obliquely to the main piece at the time of spraying the air to remove foreign substances, thereby preventing the main piece from being undesirably cooled at the time of measuring the temperature of the main piece.

Description

Apparatus for measuring temperature < RTI ID = 0.0 >

The present invention relates to a temperature measuring apparatus, and more particularly, to a temperature measuring apparatus for preventing temperature unevenness in the width direction of a cast steel during measuring the temperature of the cast steel.

Generally, in a continuous casting process, it consists of secondary cooling to cool the cast steel by injecting it through a nozzle using primary cooling cooling water in the mold, and controlling the cooling rate to obtain a desired metallic structure.

At this time, the cooling rate is controlled by the amount of cooling water in the primary mold cooling and the cooling water injection amount from the nozzle in the secondary cooling.

If the clogging of the nozzle or the arrangement of the plurality of nozzles in the secondary cooling zone is not optimized, unevenness in the width direction is caused by uneven cooling of the main plate in the width direction. Especially, in the case of the stainless steel 300 series, The amount of delta ferrite depends on the amount of the ferrite.

For this reason, it is important to measure the surface temperature of the cast steel during cooling. Due to the nature of the casting machine, it is difficult to secure visibility due to dust and water vapor inside, and the contact temperature is measured using a thermocouple or the like instead of the noncontact temperature measurement.

However, the contact type thermometer has a problem that it damages the surface of the cast steel, and furthermore, it is not suitable for the measurement at all times.

It is an object of the present invention to provide a temperature measuring apparatus constituted by a noncontact type temperature measuring means for measuring a temperature of a cast steel in a noncontact manner.

According to an aspect of the present invention, there is provided a temperature measuring apparatus comprising: a device frame; Noncontact temperature measuring means provided on one side of the apparatus frame for measuring the temperature of an object disposed on the other side of the apparatus frame in a noncontact manner; And a foreign matter removing unit installed at the other side of the apparatus frame so as to be disposed between the noncontact temperature measuring unit and the object and for removing foreign substances from the noncontact temperature measuring unit to the object by air spraying.

Here, the foreign substance removing means includes an air duct portion disposed between the non-contact temperature measuring means and the object as a measurement path of the non-contact temperature measuring means; And an air supply unit for supplying air to the air duct unit.

At this time, the air duct portion may include a main duct disposed between the non-contact temperature measuring means and the object; And an air nozzle installed at the object-side end of the main duct to obliquely spray air on the object to prevent cooling of the object.

Further, the air nozzle may include an upper channel, a lower channel, and a lower channel formed to be inclined opposite to each other to obliquely jet the compressed high-pressure air to the object at a high speed. And an intermediate channel disposed between the upper channel and the lower channel and communicating with the main duct to jet low-pressure air at a lower speed than the high-pressure air at a low speed, so that the sound pressure in the jet path of the high- The low-pressure air injected at low speed is injected obliquely along the injection path of the high-pressure air, and the air supply unit includes a low-pressure air supply line for supplying the low-pressure air to the main duct; And a high-pressure air supply line for supplying the high-pressure air to the upper channel and the lower channel.

The noncontact temperature measuring means includes a camera case fixed to the apparatus frame and having a cooling water channel formed therein; An infrared camera disposed in the camera case; And a cooling water supply line communicating with the cooling water flow path of the camera case to supply the cooling water, and a cooling water discharge line for discharging the cooling water.

In the present invention, the object may be a high-temperature main body produced by a continuous casting machine, and the foreign body may include dust and water vapor in a continuous casting machine.

The non-contact temperature measuring means according to the present invention can prevent temperature unevenness in the width direction of the cast steel by measuring the temperature of the cast steel in a non-contact manner when the temperature of the cast steel is measured.

In addition, according to the present invention, foreign matter removing means for removing and removing foreign matter from the non-contact temperature measuring means to the strip are aerated, thereby ensuring a proper view of the measurement path of the non-contact temperature measuring means.

Furthermore, since air is injected obliquely with respect to the cast steel during air blowing for removing foreign matter, it is possible to prevent unwanted cooling of the cast steel during the measurement of the cast steel temperature.

1 is a view showing a temperature measuring apparatus according to an embodiment of the present invention installed in a performance apparatus.
2 is a perspective view showing the temperature measuring apparatus of FIG.
3 is a plan view showing the temperature measuring apparatus of FIG.
4 is a side view showing the temperature measuring apparatus of FIG.
Fig. 5 is an inner side view showing the flow of air in the air nozzle of the temperature measuring device of Fig. 2; Fig.
6 is a graph showing the measurement results of the temperature distribution of the cast steel measured by the temperature measuring device of FIG.

The temperature measuring apparatus of the present invention is characterized in that the noncontact temperature measuring means is configured to measure the temperature of the cast steel in a noncontact manner during the temperature measurement of the casting so as to prevent temperature unevenness in the width direction of the casting .

In the present invention, the object may be a high-temperature cast product produced by a continuous casting machine, and the foreign substance may include dust and water vapor in a continuous casting machine. In the following description, the object is referred to as a cast product.

Hereinafter, the present invention will be described in detail with reference to the drawings.

FIG. 1 is a perspective view of a temperature measuring apparatus according to an embodiment of the present invention, and FIGS. 2, 3, and 4 are a perspective view, a plan view, and a side view, respectively, of the temperature measuring apparatus of FIG.

Referring to the drawings, the present invention includes an apparatus frame 10, a noncontact temperature measuring means 20 provided on the apparatus frame 10, and foreign matter removing means.

Here, the apparatus frame 10 is for fixing the non-contact type temperature measuring means 20 and the foreign substance removing means in a fixed position. The structure and the shape of the apparatus frame 10 are not limited to the present invention, It is obvious that the present invention can be installed in an appropriate portion of the apparatus.

The noncontact temperature measuring means 20 is installed on one side of the apparatus frame 10 and measures the temperature of the object placed on the other side of the apparatus frame 10 in a noncontact manner.

Specifically, the noncontact temperature measuring means 20 may include a camera case 21, a thermal imaging camera, and a cooling water discharge line 23. [

The camera case 21 has a function of being installed and fixed to the apparatus frame 10 to accommodate the camera. The camera case 21 accommodates a thermal imaging camera for installing a thermal imaging camera, It is possible to adopt a fixed structure.

In addition, the camera case 21 may have any structure capable of blocking radiant heat from the hot casting 1 in order to allow the thermal imaging camera to be disposed at a distance close to the hot casting 1, .

In addition, the camera case 21 may have a cooling water channel formed therein for cooling the thermal imaging camera housed therein. At this time, the cooling water channel is connected to one end of the cooling water channel of the camera case 21 to supply cooling water to the cooling water channel A cooling water discharge line 23 communicating with the other end of the cooling water flow of the camera case 21 may be configured to discharge the cooling water flowing through the cooling water flow path.

The thermal imaging camera is a measuring device for measuring the temperature in the width direction of the high-temperature cast strip 1, and is a device for absorbing infrared energy radiated from the cast strip 1 as a subject to be displayed as a thermal image, It is also referred to as an infrared thermal camera.

On the other hand, the foreign substance removing means is installed on the other side of the apparatus frame 10 so as to be disposed between the non-contact temperature measuring means 20 and the casting 1.

The foreign substance removing means serves to remove foreign substances from the non-contact temperature measuring means 20 to the casting 1 by air blowing.

Specifically, the foreign matter removing unit may include an air duct unit 30 through which air is injected and injected, and an air supply unit 40 that supplies air to the air duct unit 30. [

Here, the air duct portion 30 is disposed between the non-contact temperature measuring means 20 and the cast steel 1 and functions as a measurement path of the non-contact temperature measuring means 20. [

More specifically, the air duct portion 30 includes a main duct 31 disposed between the non-contact type temperature measuring means 20 and the cast steel 1, and a main duct 31 disposed between the main duct 31 and the cast- And an air nozzle 32 installed therein. At this time, the main duct 31 and the air nozzle 32 are measurement paths (photographing ducts) from the thermal imaging camera to the casting 1.

The air nozzle 32 may be configured to obliquely inject air into the cast strip 1 to prevent cooling of the cast strip 1 which is not desired when the dust and foreign matter are removed due to the air jet. The channel structure (flow path structure) in the air nozzle 32 will be described.

Fig. 5 is an inner side view showing the flow of air in the air nozzle of the temperature measuring device of Fig. 2; Fig.

1, 2 and 5, the air nozzle 32 includes an upper channel 32a and a lower channel 32b, and an intermediate channel 32b formed between the upper channel 32a and the lower channel 32b. 32c.

The air supply unit 40 includes a low pressure air supply line 41 for supplying low pressure air to the main duct 31 and a low pressure air supply line 41 for supplying air to the upper and lower channels 32a and 32b. And a high-pressure air supply line 42 for supplying high-pressure air of a higher pressure than the low-pressure air. The low-pressure air supply line 41 receives low-pressure air from the blower 48 and the high-pressure air supply line 42 supplies high-pressure air from an air tank 49, which stores and distributes high- Can be supplied.

Here, the foreign substances inside the main duct 31 and the middle channel 32c, which are measurement paths of the thermal imaging camera, can be sent out to the outside by the low-speed low-pressure air and can be effectively removed.

The upper channel 32a and the lower channel 32b of the air nozzle 32 may be formed so as to be inclined opposite to each other so as to inject the compressed high-pressure air obliquely to the cast piece 1. [ For example, as shown in the figure, the upper channel 32a may have an end inclined upwardly with respect to the bill 1, and the lower channel 32b may have an end inclined downward with respect to the bill 1. At this time, it is preferable that the inclination angle is about 45 degrees with respect to the vertical line to the cast strip 1.

The intermediate channel 32c of the air nozzle 32 is disposed between the upper channel 32a and the lower channel 32b and communicates with the main duct 31 to spray low pressure air of a lower pressure than the high pressure air . Of course, as an example, since the end portion of the intermediate channel 32c is formed by the inclined end portions of the upper channel 32a and the lower channel 32b, low-pressure air through the intermediate channel 32c is directed upward And has a structure that can be inclined downwardly.

Thus, the upper channel 32a and the lower channel 32b are configured to inject the air obliquely to the cast strip 1, so that in the jet path of the low-pressure air injected through the intermediate channel 32c, So that the injection path is formed obliquely rather than vertically.

That is, when the high-pressure air is injected obliquely with respect to the casting 1 in the upper channel 32a and the lower channel 32b, negative pressure is generated in the injection path of the high-pressure air jetted at high speed, Is injected obliquely along the injection path of the high-pressure air. In other words, due to the high flow velocity of the high-pressure air, negative pressure is formed in the inclined injection path of the high-pressure air, so that the low-pressure air is switched to the injection path side of the high-pressure air.

Accordingly, the foreign substance removing unit configured as described above functions to remove foreign substances from the non-contact temperature measuring unit 20 to the casting 1 by air, while preventing the unwanted cooling of the surface of the casting 1 can do.

6 is a graph showing the measurement results of the temperature distribution of the cast steel measured by the temperature measuring device of FIG.

Referring to the drawings, there is shown an example of time-based measurement and air usage in the utilization of the present invention.

Specifically, the temperature of the cast strip 1 was measured at intervals of 6 seconds, and the high-pressure air was injected from the air nozzle through the upper channel 32a and the lower channel 32b only for 2 seconds immediately before the temperature measurement, Waste is prevented.

That is, the low-pressure air through the main duct 31 continues to be output for 6 seconds. During the 6 seconds before and 4 seconds after the photographing by the thermal imaging camera, the dust removal is performed by only the low-pressure air through the main duct 31 to a certain degree, Pressure air is also sprayed through the upper channel 32a and the lower channel 32b together with the low-pressure air for the last two seconds, so that the foreign substances in the main duct 31 and the middle channel 32c, which are measurement paths of the thermal imaging camera, But can be removed effectively. In addition, the dust removal efficiency is increased by spraying twice the flow rate of low-pressure air for 2 seconds immediately before shooting, and the reason for not spraying twice the flow rate before that is to prevent the cooling of the casting.

The non-contact type temperature measuring means 20 constituted as described above can measure the temperature of the cast steel 1 in a non-contact manner with respect to the surface of the cast steel 1, Can be prevented.

In addition, the present invention provides a foreign matter removing unit that removes foreign matter from the noncontact temperature measuring unit 20 to the casting 1 by air spraying, so that a proper visual field for the measurement path of the noncontact temperature measuring unit 20 .

Further, according to the present invention, since air is injected obliquely to the cast steel 1 during air blowing for removing foreign matter, it is possible to prevent cooling of the cast steel 1 which is not desired when measuring the temperature of the cast steel 1.

While the present invention has been particularly shown and described with reference to exemplary embodiments thereof, it is to be understood that the invention is not limited to the disclosed exemplary embodiments. It is to be understood that various changes and modifications may be made without departing from the scope of the appended claims.

1: Cast 10: Device frame
20: non-contact temperature measuring means 21: camera case
22: Cooling water supply line 23: Cooling water discharge line
30: air duct part 31: main duct
32: Air nozzle 32a: Upper channel
32b: lower channel 32c: intermediate channel
40: air supply part 41: low pressure air supply line
42: high pressure air supply line 48: blower
49: Air tank

Claims (6)

A device frame 10;
Noncontact temperature measuring means (20) installed on one side of the apparatus frame (10) for measuring the temperature of an object placed on the other side of the apparatus frame (10) in a noncontact manner; And
Contact type temperature measuring means (20) and an object (10) disposed on the other side of the apparatus frame (10) so as to be disposed between the noncontact temperature measuring means (20) Removing means;
.
The method according to claim 1,
Wherein the foreign substance removing means
An air duct section (30) disposed between the noncontact temperature measuring means (20) and the object as a measurement path of the noncontact temperature measuring means (20); And
An air supply part (40) for supplying air to the air duct part (30);
And a temperature measuring device for measuring the temperature of the sample.
3. The method of claim 2,
The air duct portion (30)
A main duct (31) disposed between the noncontact temperature measuring means (20) and the object; And
An air nozzle (32) installed at the object-side end of the main duct (31) for slantingly injecting air into the object to prevent cooling of the object;
And a temperature measuring device for measuring the temperature of the sample.
The method of claim 3,
The air nozzle (32)
An upper channel (32a), a lower channel (32b) formed to be inclined opposite to each other so as to obliquely jet the compressed high-pressure air to the object at a high speed; And
And an intermediate channel (32c) disposed between the upper channel (32a) and the lower channel (32b) and communicating with the main duct (31) to inject low pressure air, which is lower in pressure than the high pressure air,
The low pressure air injected at a low speed is injected obliquely along the injection path of the high pressure air by forming a negative pressure in the injection path of the high pressure air injected at high speed,
The air supply unit (40)
A low-pressure air supply line (41) for supplying the low-pressure air to the main duct (31); And
A high-pressure air supply line 42 for supplying the high-pressure air to the upper channel 32a and the lower channel 32b;
And a temperature measuring device for measuring the temperature of the sample.
The method according to claim 1,
The noncontact temperature measuring means (20)
A camera case (21) fixed to the apparatus frame (10) and having a cooling water channel formed therein;
An infrared camera disposed in the camera case (21); And
A cooling water supply line (22) communicating with the cooling water flow path of the camera case (21) to supply cooling water, a cooling water discharge line (23) for discharging cooling water;
And a temperature measuring device for measuring the temperature of the sample.
6. The method according to any one of claims 1 to 5,
Characterized in that the object is a hot cast (1) produced by a continuous casting machine, and the foreign matter contains dust, water vapor in a continuous casting machine.

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